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Fission Yeast CSL Transcription Factors: Mapping Their Target Genes and Biological Roles

Publication at Faculty of Science |
2015

Abstract

Background Cbf11 and Cbf12, the fission yeast CSL transcription factors, have been implicated in the regulation of cell-cycle progression, but no specific roles have been described and their target genes have been only partially mapped. Methodology/Principal Findings Using a combination of transcriptome profiling under various conditions and genome-wide analysis of CSL-DNA interactions, we identify genes regulated directly and indirectly by CSL proteins in fission yeast.

We show that the expression of stress-response genes and genes that are expressed periodically during the cell cycle is deregulated upon genetic manipulation of cbf11 and/or cbf12. Accordingly, the coordination of mitosis and cytokinesis is perturbed in cells with genetically manipulated CSL protein levels, together with other specific defects in cell-cycle progression.

Cbf11 activity is nutrient-dependent and Delta cbf11-associated defects are mitigated by inactivation of the protein kinase A (Pka1) and stress-activated MAP kinase (Sty1(p38)) pathways. Furthermore, Cbf11 directly regulates a set of lipid metabolism genes and Delta cbf11 cells feature a stark decrease in the number of storage lipid droplets.

Conclusions/Significance Our results provide a framework for a more detailed understanding of the role of CSL proteins in the regulation of cell-cycle progression in fission yeast.